drywall grid system technical guide f+ x
TRANSCRIPT
F L AT
D r y w a l l G r i d S y s t e m Te c h n i c a l G u i d eD r y w a l l G r i d S y s t e m
C U R V E D
T e c h n i c a l G u i d e i n c l u d i n g S h o r t S p a n a n d Q u i k S t i x B u l k h e a d s
B e t w e e n u s , i d e a s b e c o m e r e a l i t y ™
CEILING SYSTEMS
Contents DrywallGridSystem
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2
Drywall Grid Page
Features and Benefits 3
Components: Main Runner 4
Cross Tees 4
Perimeter Trims 4
TransitionTrim 4
Accessories 5
Grid Layout 6
Integrating Services 7
System Details 8-9
Estimating Material and Load Data 10
Curved Ceilings
Creating Curved Framing 11
Convex Ceilings 12
Concave and Undulating Ceilings 13
Vaults, Barrel Vaults and Cantilever Ceilings 14
Establishing Arcs and Templates On Site 15-16
QuikStix Bulkheads
Components: QuikStix Tee 17
Cross Tee 17
Perimeter Trims 17
TransitionTrim 17
Framing, Suspension 18Load Data 19
ShortSpan
Features
Components: ShortSpan Tee 20
Perimeter Trims 20
TransitionTrim 20
StrongBack Support 20
Locking Angle Molding and ShortSpan Installation 21
Fixture Installation and Load Data 22
StrongBack Support 23
Architectural Specifications
Flat Plasterboard Ceilings 24Curved Plasterboard Ceilings 24Corridors or Plasterboard Margins 24Bulkhead / Soffit 24For Seismic
Design supportplease contact
your localArmstrong
office.
Drywall Grid Features and Benefits DrywallGridSystem
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3
Armstrong Drywall Grid is fast and easy to install and an economical alternative to TCR and Furring Channelconstruction.
LegendIcon refers to Curved Ceilings and icon refers to Flat Ceilings
Design FlexibilityArmstrong Drywall Grid Systems offer flexible design solutions for:• Transitions to acoustical ceilings• Flat and curved ceilings• Margins• Bulkheads
Performance• PeakForm
Patented profile increases strength and stability for improved performance during installation
• Knurled FacePositive screw penetration into tees
• SuperLock / XL2
Main Runner and Cross Tee clips are engineered for a strong secure connection and fast accurate alignmentconfirmed with an audible click; easy to remove and relocate
• ScrewStopReverse hem prevents screw spin off on Tee face
• 38mm Wide FaceMain runners and cross tees – easy installation of screw fixed plaster board sheets
• Rotary stitched Double Thickness WebFor additional torsional strength and stability
• Simple Integration of Mechanical Services
Benefits• Reduced installation time• Reduced labour costs• Reduced material costs and wastage
Physical Data• Material: Hot dipped galvanised steel• Recycled Content of 40%• Surface Finish: Z275 galvanised• Main Runner / Cross Tee Interface: Joggled ends• End Detail:
– Main Runner: staked-on SuperLock clip– Cross Tee: staked-on XL2 clip
Typical Applications• Enables integration between plasterboard and acoustical panel ceilings• Interior screw up ceilings – flat or curved• Bulkheads/special transitions
Code ComplianceArmstrong DGS is designed and manufactured to comply with the following Australian Standards:AS/NZ 2785-2000: Suspended Ceilings – Design and InstallationAS/NZ 2589-2007: Gypsum linings – Application and finishingAS/NZ 1397-2002: Steel sheet and strip – Hot-dipped zinc-coated or aluminium/zinc-coatedAS/NZ 4600-2005: Cold-formed steel structuresAS/NZ 1170-2002: Structural Design Actions
Drywall Grid Components DrywallGridSystem
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4
BP 794033 3600 38 38 150cc 12 43.2 24
Item Number Dimensions Rout Spacing Content / Carton / Weightlength (mm) height (mm) face (mm) mm pcs lm kg
Main Runner: PeakForm 38 with Knurled Face and SuperLock Clip (bulb-to-bulb connection)
Cross Tees: PeakForm 38 XL2 with Knurled Face (stab connection, override)
BP 793033 1200 38 38 Centre 36 43.20 21
BP 793133 1250 38 38 Centre 36 45.0 22
BP 796133 1600 38 38 Centre 36 57.6 24
38
38
38
38
75mm 23 x 150mm
3600mm
75mm
1200mm600mm
1600mm800mm
1250mm625mm
Perimeter Trims
Knurled Channel Molding (hemmed with Knurled lower leg)BP KCM 36 3600 40 38 – 20 72 26
Locking Angle Trim (hemmed with Knurled faces)BP LAT36 3600 32 32 75 in / 150 o.c. 20 72 26
Angle Trim (hemmed with Knurled faces)BP KAM36 3600 32 32 – 20 72 26
40
38
1924
32
32
32
32
A variety of drywall grid perimeter trims and accessories are available to provide problem-solving solutions thatsave time, labor and money.
Transition Trim
Shadowline reveal with Knurled Face for PB fixing and Pre-painted Global White finishBP 7902 3048 32 68 – 12 36.58 14.5
35
32
3324
An innovative transition solution from flush plasterboard to acoustical ceiling systems.
Drywall Grid Accessories DrywallGridSystem
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5
Item Product Description Pcs / ApplicationNumber Bucket
Transition Clips with Locking Tabs facilitate transition
from drywall to acoustical ceiling; one-sided hold-down clip;
eliminates need for drywall bead. Locking tabs provide
secure locationfor DGS tees
BPDW10LT For 10mm Plasterboard 125
BPDW13LT For 13mm Plasterboard 125
BPDW16LT For 16mm Plasterboard 125
BPDW30C 30, 45, 60 and 90 degree Drywall Angle Clips are used to 250
BPDW45C create positive and secure angles for drywall and ceiling 250
BPDW60C installations on either main beams or cross tees 250
BPDW90C 250
BPRC2 Radius Clip is used to secure the Main Runner at the 205
desired angle in curved ceiling applications. Includes a rout
for Cross Tee installation
BPGC3W 3 Way Bite Clip connects Intersecting Cross Tees at any 250
point along a Main Runner or other Cross Tee
BPQSUTC Up Tight Clip is used for Direct fix applications 150
SCDGS Rod Hanging Clip is the standard height adjustable 100
suspension clip connecting from 2.5 or 5mm rod to the
DGS Main Runner
Rod Hanging Clip
30˚ 45˚
60˚ 90˚
3844
114
Drywall Grid Layout DrywallGridSystem
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6
Armstrong Drywall Grid is fast and easy to install and an alternative to TCR and Furring Channel construction.The Drywall Grid System is made up of PeakForm (DGS) Main Runners and Cross Tees that are suspendedfrom the structural deck. Sections of Main Runners lock together end-to-end with Cross Tees spanning betweenthe Main Runners.
The ends of the Main Runners and Cross Tees either lock into the wall Channel or are fixed to Angle Trims thatrun around the perimeter of the space.
Squaring up the systemEnsure grid is square followinginstallation of first two Main Runners
Peak FormCross Runner
Main Bar
2.5mm / 5mm Suspension Rod and Clip 1200 o.c.
Wall Channel or Angle Molding to be fixed to wall structure at a maximum of 600mm centres
Gypsum Wall Board
Main Beam
Cross Tee
Squaring up the SystemEnsure grid is square following installation of first two Main Runners
Dimension “A” = Dimension “B”
Drywall Grid Integrating Services DrywallGridSystem
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7
The Armstrong Drywall Grid System is designed to accommodate installation of mechanical services such aslight fixtures and air registers. Fixtures can be simply framed regardless of orientation (parallel or perpendicular toMain Runners), as per the illustrations below.
Main Runners feature connection routs at 150mm centres for installation of additional Cross Tees so that fixturescan be framed and supported. The “3 Way Bite Clip” is applied where connections are required where no routexists, such as connecting between Cross Tees.
Note: Light Fixtures Installed Perpendicular toMain Runners
1. Main Runners should be installed at 1250mm OCto accommodate Light Fixtures, providing a clearopening of 1212mm for easy installation. Standard1250mm long Cross Tees are installed betweenMain Runners at 600mm OC, with additionalCross Tees to support and frame out the fixtures.
2. For shorter rectangular fixtures, (with length lessthan 1162mm) install Main Runners at 1200mmOC and apply typical 1200mm Cross Tees.
Legend
3 Way Bite Clip to be installed at CrossRunner connection where no rout is available
Main Runners – Iten No BP 794033
1250
3 Way Bite Clip
Cross Runner 1250 Item No. BP 793133
Cross Runner 1200 Item No BP 793033
Cross Runners cut to size
1200
Drywall Grid System Details DrywallGridSystem
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8
Suspension Clip
Plaster Board
Hanging Rod
Access Doorby Others
Frame Out to Fit and Support
Suspension Clip
ArmstrongDrywallCross Tee
Control Joint by Others
Edge Bead
Armstrong DrywallMain Beam
DrywallScrews
1 Suspension 2 Light Fixture
3 Access Door 4 Control Joint
5 Pelmet
PLASTERBOARD MARGIN
64mm STUD
JOINER /ALIGNMENT PLATE
JOINER /ALIGNMENT PLATEEXTRUDED
ALUMINIUM AXIOM PELMET
3 WAY BITE CLIP
NOTE: SCREW FIXDGS TEE TO PELMET
3 Way Bite Clip
3 Way Bite Clip
Note: An alternate method to connecting Tees is to simply screw fix through overlapping flanges
6 Securing a Single Cross Tee
Drywall Grid System Details DrywallGridSystem
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9
Main Beam
PlasterBoard Surface Mount
Light Fixture(Screwed toMain Beam)
Additional Hangers Required To Support Load
Exposed Tee Grid System
Drywall Grid System
Plaster Board
Brace where required
11 Transition with DW10/13/16 Clip
Plaster Board
KAM
7902
Drywall GridKAM
7902
Plaster Board
Drywall Grid
Exposed Tee Grid Drywall Grid
Acoustical Ceiling Panel Plaster Board7902
KAM
12 Transition Trim
9 Bulkhead
7 Vertical Brace 8 Angle Clip
10 Surface Mount Fixture
30˚ 45˚
60˚ 90˚
Drywall Grid System Details DrywallGridSystem
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10
Estimating Material
Item Description Dimensions Carton /Content Weight/ctn Area of ceiling /cartonLength (mm) pcs lm kg @1600cc @1250cc @1200cc
BP 794033 Main Runner 3600 12 43.2 24 69m2 54m2 52m2
@600cc @450cc
BP 796133 Cross Tee 1600 36 57.6 24 34m2 26m2
BP 793133 Cross Tee 1250 36 45.0 22 27m2 20m2
BP 793033 Cross Tee 1200 36 43.20 21 26m2 19m2
BP KCM Channel Molding 3600 20 72 26
BP LAT Locking Angle Trim 3600 20 72 26
BP KAM36 Angle Trim 3600 20 72 26
Ratio for Cartons (approximate)1600mm Cross tees at 600cc 1600mm Cross Tees at 450ccMR:CT = 1:2 MR:CT = 1:2 1250mm Cross tees at 600cc 1250mm Cross Tees at 450ccMR:CT = 1:2.5 MR:CT = 1:31200mm Cross tees at 600cc 1250mm Cross Tees at 450ccMR:CT = 1:2 MR:CT = 1:3
Load Data
Drywall Grid System System Capacity kg/m2
Main Runner Cross Tees Suspension points @Centres (mm) Centres (mm) 900mm 1200mm
1200450 44.67 18.79600 44.67 18.79
1250450 42.87 18.16600 33.35 18.16
1600450 24.27 14.21600 18.21 14.21
Note: System Capacity figures based on deflection L/360
Module Size Grid System Weight (kg/m2)
1200 x 450 1.431200 x 600 1.171250 x 450 1.421250 x 600 1.161600 x 450 1.331600 x 600 1.08
Ceiling Load CalculatorTo determine compliance of system (In accordance withAS2785:2000), based on project requirements, apply thefollowing calculator:
1. Determine Dead Load (G) = Sum of following:a. Plasterboard weight in kg/m2 = Ab. Grid weight based on module (Fig 2) = Bc. Fixtures Load (Includes lights etc) = C
Dead Load (G) = Sum (A+B+C) x 1.4 = _ kg/m2
2. Add Service Load (U) = 3kg/m2 x 1.7 = 5.1kg/m2
3. Actual Ceiling Load = G + U = _kg/m2
4. For compliance to AS2785:2000, the Calculated CeilingLoad (G+U) must be less than the System Capacity inFig 1
Note: Light fixtures and other mechanical services mayrequire additional suspension points or be independentlysuspended.
Worked Example of Actual Project Ceiling Load: Using13mm plasterboard and Grid Module: 1200x600mm1. Determine Dead Load (G) = Sum of following:
a. Plasterboard weight in 8.2kg/m2 = Ab. Grid weight based on module (Fig 2) = 1.17kg/sm2 = Bc. Fixtures Load (Includes lights etc) = Assume Nil based
on light fixture = weight of plasterboardDead Load (G) = Sum (A+B+C) x 1.4 = 13.12 kg/m2
2. Add Service Load (U) = 3kg/m2 x 1.7 = 5.1kg/m2
3. Actual Ceiling Load = G + U = 18.21kg/m2
4. System complies to AS2785:2000, as the CalculatedCeiling Load (G+U) < 18.79kg/sm (being the SystemCapacity in Fig 1
Fig 1 Fig 2
11
Curved Ceilings DrywallGridSystem
Curved
Features• Standard Main Runners are simply Faceted on site • Limitless Concave or Convex designs• Pre-engineered accessories
Faceting the Main Runner• Three simple steps:
i. Cut Main Runner as requiredii. Bend the face of the Main Runner to match the
desired radiusiii. Screw fix Radius Clip to reinforce Main Runner
at each “cutout” location (use four #6 x12mmbutton head screws).
When installing a convex ceiling, cross tees should be placed at the BP RC2 clips
Note: RC2 Clips positioned “point down” for Convex Ceiling
Convex Ceiling
When installing a convave ceiling, cross tees should be placed between BP RC2 clips
Note: RC2 Clips positioned “point up” for Concave Ceiling
Cross tee
Cross tee
Cross tee
BP RC2 Clip BP RC2 Clip
Concave Ceiling
BP RC2 Clip
Radius and plaster board thickness will determine on centre spacing of cuts. Refer to ‘‘Establishing an Arc’’ on next page for creating a curved template.
Install RC2 Clip at all cut locations on Main Runner using 4 screws per clip
BP RC2 Clip is used to secure the main runner at thedesired angle in curved ceiling with slot for installingcross tees.
Refer to “Making a template” on page 13.
Use Snips to cut out section
Creating Curved Framing Ceilings
An unlimited range of Curved ceilings can simply be constructed using standard Armstrong Drywall Gridcomponents.
Single and multiple curved ceilings can be framed quickly and easily, without the requirement to order pre-rolledcomponents.
12
Curved Ceilings DrywallGridSystem
Curved
Creating Convex Ceilings
An unlimited range of convex ceilings can be constructed by faceting the Main Runners on the job site to meetdesign needs.
• Suspension hangers spaced along themain runners not more than 1200mm oncentre (dependent upon plaster boardconstruction).
• Add vertical braces as required tostabilize the frame.
• Thickness of the sheeting material isdetermined by its plasticity. (Refer tosupplying manufacturer’srecommendation).
Note: Place RC2 clip on the side of theweb where the rotary stitching forms acavit. This allows the clip to be flush withthe web.
1 Cut main runners as required tocreate desired curve
Cross Tee
Cross Tee
When installing a convex ceiling, cross tees are placed at the RC2 clip.
1200mm
1200mm
2 Bend the face of the mainbeam to match radius
3 Use RC2 to reinforce main beam at eachknockout location (secure with four #6 x12mm button head screws
13
Curved Ceilings DrywallGridSystem
Curved
Suspension Hanger
Creating Concave Ceilings and Undulating Ceilings (Waves)
An unlimited range of concave ceilings can be constructed by faceting the Main Runners on the job site to meetdesign needs Single and multiple curved ceilings can be framed quickly and easily.
• Suspension hangers spaced along the main runners not more than 1200mm oncentre (dependent upon plaster board construction).
• Add vertical braces as required to stabilize the frame.
• Thickness of the sheeting material is determined by its plasticity. (Refer to supplyingmanufacturer's recommendation).
Note: Place RC2 clip on the side of the web where the rotary stitching forms a cavit.This allows the clip to be flush with the web.
Suspension Hanger Rigid Vertical Brace support to stabilize the framing
14
Curved Ceilings DrywallGridSystem
Curved
Vault perimeter light cove Floating vault
Track or perimeterchannel
Suspension hanger
BP DW90C Main runnerBP RC2
200mm
Barrel vaultSuspension Hanger
Main runner
Cross tee
Vertical Brace Note: Rigid support here to stabilize the framing
Cantilever Ceilings:
A maximum cantilever dimension of 450 mm is allowed on the following basis:
1. Being the sum of both the horizontal and vertical elements.
2. Is measured as the distance from a hanger to the terminal end of the cantilever.
Note: Regardless of the horizontal dimension, a diagonal brace must be installed if the vertical dimensionexceeds 300mm. (applies to flat or curved installation – as shown).
Establishing an arc
1. Establish a centre line
2. Mark 600mm increments on line perpendicular to centre line
3. At 600mm marks, identify points of arc below perpendicular line (maintain consistent spacing of point). See radius charts on page 14.
4. Connect points to form a smooth arc
600mm
14mm 56mm126mm
225mm
Example: 12.9 m using chart on page 20.
Location of first rowat centre line
Main runner
Template undermain runner
* BP RC2 Clip placementConcave – Cross tee placement in slots between cuts (RC2 Clips positioned “point up”) Convex – Cross tee lock into slot on BP RC2 clip (RC2 Clips positioned “point down”) (tight radius installations may require bending up of the flange at endsof cross tees)
Completing the template
1. Draw radius on template
of template
3. Cut main runner as required and position along the cut radius on the template (use the chart below)
4. Screw BP RC2 clips to faceted main runner at all cutout locations *
5. On the template, mark a slot location reference point to maintain consistent slot location
Cut main runner(s) to fitthe template
Cut Cut
Span of vault
Radius of vault plus thickness of plaster board (can be partial radius of large spans)
600mm 600mm 600mm
1200mm
1800mm
2400mm
2. Cut along the radius and remove section
15
Curved Ceilings DrywallGridSystem
Curved
16
Curved Ceilings DrywallGridSystem
Curved
Radius dimension in mm
3000 3300 3600 3900 4200 4500 4800 5100 5400 5700 6000 6300 6600 6900 7200
600 60 55 50 46 43 40 38 35 33 32 30 29 27 26 25
1200 250 226 206 189 175 163 152 143 135 128 121 115 110 105 101
1800 600 534 482 440 405 376 350 328 309 292 276 263 250 239 229
2400 1200 1035 917 826 753 693 643 600 563 530 501 475 452 431 412
7500 7800 8100 8400 8700 9000 9300 9600 9900 10200 10500 10800 11100 11400 11700
600 24 23 22 21 21 20 19 19 18 18 17 17 16 16 15
1200 97 93 89 86 83 80 78 75 73 71 69 67 65 63 6.2
1800 219 211 203 195 188 182 176 170 165 160 155 151 147 143 139
2400 394 378 364 350 338 326 315 305 295 286 278 270 263 255 249
12000 12300 12600 12900 13200 13500 13800 14100 14400 14700 15000 15300 15600 15900 16200
600 15 15 14 14 14 13 13 13 13 12 12 12 12 11 11
1200 60 59 57 56 55 53 52 51 50 49 48 47 46 45 45
1800 136 132 129 126 123 121 118 115 113 111 108 106 10.4 102 100
2400 242 236 231 225 220 215 210 206 201 197 193 189 186 182 179
16500 16800 17100 17400 17700 18000 18300 18600 18900 19200 19500 19800 20100 20400 20700
600 11 11 11 10 10 10 10 10 10 9 9 9 9 9 9
1200 44 43 42 41 41 40 39 39 38 38 37 36 36 35 35
1800 98 97 95 93 92 90 89 87 86 8.5 83 82 81 80 78
2400 175 172 169 166 163 161 158 155 153 151 148 146 144 142 140
21000 21300 21600 21900 22200 22500 22800 23100 23400 23700 24000 24300 24600 24900 25200
600 9 8 8 8 8 8 8 8 8 8 8 7 7 7 7
1200 34 34 33 33 32 32 32 31 31 30 30 30 29 29 29
1800 77 76 75 74 73 72 71 70 69 68 68 67 66 65 64
2400 138 136 134 132 130 128 127 125 123 122 120 119 117 116 115
25500 25800 26100 26400 26700 27000 27300 27600 27900 28200 28500 28800 29100 29400 29700
600 7 7 7 7 7 7 7 7 6 6 6 6 6 6 6
1200 28 28 28 27 27 27 26 26 26 26 25 25 25 25 24
1800 64 63 62 61 61 60 59 59 58 58 57 56 56 55 55
2400 113 112 111 109 108 107 106 105 103 102 101 100 99 98 97
30000 30300 30600 30900 31200 31500 31800 32100 32400 32700 33000 33300 33600 33900 34200
600 6 6 6 6 6 6 6 6 6 6 5 5 5 5 5
1200 24 24 24 23 23 23 23 22 22 22 22 22 21 21 21
1800 54 54 53 52 52 51 51 51 50 50 49 49 48 48 47
2400 96 95 94 93 92 92 91 90 89 88 87 87 86 85 84
34500 34800 35100 35400 35700
600 5 5 5 5 5
1200 21 21 21 20 20
1800 47 47 46 46 45
2400 84 83 82 81 81
600m
m in
crem
ents
fro
m c
entr
e lin
e
QuikStix Bulkheads DrywallGridSystem
Flat
17
BP 79QS 636 3600 39/41 38 75 in / 150 o.c. 12 43.2 21
Item Number Dimensions Rout Spacing Content / Bundle / Weightlength (mm) height (mm) face (mm) mm pcs lm kg
QuikStix Tee with Knurled Face
Components DrywallGridSystem
38mm
39mm
38mm
41mm
Perimeter Trims
Knurled Channel Molding (hemmed with Knurled lower leg)BP KCM 36 3600 40 38 – 20 72 26
Locking Angle Trim (hemmed with Knurled faces)BP LAT36 3600 32 32 75 in / 150 o.c. 20 72 26
Angle Trim (hemmed with Knurled faces)BP KAM36 3600 32 32 – 20 72 26
StrongBack Support
BP 79SB36 3600 50 – 150 12 43.20 21
40
38
1924
32
32
32
32
3600mm
Knockout Flattened Bulb75mm 150mm
Alignment Holes
Bending Crimp
Rout Hole150mm
6.5
50
Flat
Armstrong DGS QuikStix is a fast and easy solution forframing “Bulkhead” Ceilings and an economical alternativeto Stud and Track construction.
• Knockouts at 150mm centers reduces cutting time.
• Alignment holes make screw installation simple and formsperfect 30, 45, 60, 75 and 90 degree angles.
• Flattened bulb is offset to allow true angles without inter-ference.
• Bending crimp prevents misalignment.
• 90 degree angle fits locking angle mold (LAT-36).
Key Attributes• 38mm Wide Knurled Face
Easy installation of screw fixed plaster board sheets
• ScrewStopReverse hem prevents screw spin off on Tee face
• Rotary stitched Double Thickness WebFor additional torsional strength and stability
Physical Data
• Material: Hot dipped galvanised Z275 steel
• Recycled Content of 40%
• End Detail: square cut
Cross Tee: PeakForm 38 XL2 with Knurled Face (stab connection, override)
BP 793033 1200 38 38 Centre 36 43.2 21
38
38
1200mm600mm
30 Angle 45 Angle
60 Angle 75 Angle
Note: Use #6 Framing Screw, screw through clearance hole, then through angle hole
90 Angle
Bend UpwardAt Crimp AfterCutting Knockout
0 Angle
Use Snips toMake two Cuts(About 6mmApart) at Knockout Before Bending Trash After
CuttingQuikStix
Flattened Bulb isOffset to allow clearanceWhen Bending
ClearanceHole
Line UpAngle HolesWith ClearanceHole
QuikStix
Plaster Board
Screw
DW90CClip
KAM 36Knurled AngleTrim
Screw
QuikStix Bulkheads DrywallGridSystem
Flat
18
Option 1: Direct Attach Method
LAT36or KAM36
LAT36or KAM36
LAT36
LAM12
LAT36or KAM36
QuikStix Tee
QuikStix Tee QuikStix Tee
Cross Tee
Cross Tee
Cross Tee
Horizontal Span
(see chart)
StrongBack
QuikStixTee
LAT36
Horizontal Span
(see chart)
Cross Tee
Cross Tee
Cross Tee
Cross Tee
Suspension
Option 2:Suspended from Deck
QuikStixTee
QuikStixTee
QuikStixTee
Framing 400 600 800 900Spacing Horizontal Horizontal Horizontal Horizontal
600 55.00 38.67 26.66 18.16900 34.67 25.78 17.77 –1200 26.07 14.45 10.22 –1800 17.33 12.89 – –
Box Hangers atWidth 800 o/c 900 o/c 1000 o/c 1200 o/c
300 2925 2550 2100 1350600 2775 2400 1950 1200900 2625 2250 1800 10501200 2475 2100 1650 –
QuikStix Soffit System Capacity in kg/m2
If QS section is spaced at 600 on centre, with a horizontal span of 900, thesystem will carry 18.16 kg/m2.
Moving QS sections further apart, to 1200, with 1200 tees between, and ahorizontal span of 800, the system will carry 10.22 kg/m2.
If tees are used to spread QS sections further apart, tees should beinstalled at 450 o/c.
Horizontal spans greater than 900 require vertical support.
Diagonal bracing as required inside the soffit.
Vericat height of soffit can be taken from chart.
Vertical Drops measured when BoxBeam is suspended by StrongBack.
If BoxBeam is suspended from upper ceiling, it must be screwed directly tomain beams, with a hanger to structure above the connection. Diagonalbracing inside the box as required.
Box ribs spaced at 600 o/c.
Loads applied based on 15mm board, with board on two sides and bottom.
Dimensions are for each side of box or drop – 2925 maximum drop forsoffit/box.
BoxBeam Drop Heights or Vertical Drops (using 79QS36G90)
QuikStix Bulkheads DrywallGridSystem
Flat
19
QuikStix
QuikStix
QuikStix
VerticalQuikStix
HorizontalQuikStix
Plaster Board
PlasterBoard
PlasterBoardPlaster Board
Plaster Board
Screw
DW90CClip
Deck
Suspension Hanger
Steel StudWall
LAT36 LockingAngle Trim
LAT36Locking AngleTrim
LAT36Knurled AngleTrim
456030
7590
Five AngleOptions
AirDuct
QuikStix
QuikStixQuikStix
QuikStix
QuikStix
QuikStix
QuikStix
LAT36Locking AngleTrim
Fixing of LAT36 / KAM36 to wall structure at maximum 600mm centres
Wall
LAT36Locking AngleTrimLAT36
Locking AngleTrim
#6 Framing Screw
#6 Framing Screw
Deck
Screw
Screw
90 Degree Drop Bulkheads
Framing Around Duct Work
Drywall Step Vertical
Pan Head Screwat Each LAT36to Tee Connection
Pan Head Screwat Each LAT36to Tee Connection
Load Values:
Hangers at 1200,Tees at 450 o/c
79QS36G90 13.86 25.63
Note: 10mm PB 7.0 kg/m2 13mm PB 8.8 kg/m2 16mm PB 13 kg/m2 *For other combinations, contact your Armstrong office (details on page 24)
Use Bracesas NeededTo SupportLateral Loads
Refer Load Chart for dimensions
System Capacity (kg/m2)
ItemHangers at 900,Tees at 450 o/c
Suspension Hanger
ShortSpan DrywallGridSystem
Flat
Armstrong DGS – ShortSpan is a fast and easy solution for framing shortspans and an economical alternative to TCR and Furring Channel constructions.
ShortSpan enables framing without suspension hangers to a maximum spanof 1600mm, saving material and time
ShortSpan Tees engage to the Armstrong Locking Angles Trims at theperimeter without the need to screw fix.
Longer spans can be simply achieved using the StrongBack Support at1600mm centres.
Key Attributes• 38mm Wide Knurled Face
Easy installation of screw fixed plaster board sheets
• ScrewStopReverse hem prevents screw spin off on Tee face
• Rotary stitched Double Thickness WebFor additional torsional strength and stability
• StrongBack SupportCorridor solutions up to 3200mm wide with single mid span StrongBackSupport
• Locking Angle TrimPerimeter Angle with locking tabs at 150mm centres, for rapid securing ofShortSpan Tees. Locking Tabs prevent lateral and upward movement
Physical Data• Material: Hot dipped galvanised Z275 steel• Recycled Content of 40%• End Detail: square cut
Components DrywallGridSystem
Flat
20
BP 79S36 3600 38 38 – 12 43.2 20
Item Number Dimensions Rout Spacing Content / Bundle / Weightlength (mm) height (mm) face (mm) mm pcs lm kg
ShortSpan Tee with Knurled Face
Rotary stitch
Knurled surface
Screwstop(prevents screw
slippage)
Crimped area(for easy
of StrongBack)50mmapplication
Perimeter Trims / Transition Trim
Perimeter Trim: Knurled Channel Molding (hemmed with Knurled lower leg)BP KCM 36 3600 40 38 – 20 72 26
Perimeter Trim: Locking Angle Trim (hemmed with Knurled faces)BP LAT36 3600 32 32 75 in / 150 o.c. 20 72 26
Perimeter Trim: Angle Trim (hemmed with Knurled faces)BP KAM36 3600 32 32 – 20 72 26
Transition Trim: Shadowline reveal with Knurled Face for PB fixing and Pre-painted Global White finishBP 7902 3048 32 68 – 12 36.58 14.5
StrongBack Support
BP 79SB36 3600 50 – 75 in / 150 o.c. 12 43.20 20
40
38
1924
32
32
32
32
50mm
3600mm
50mm
6.5
50
35
32
3324
ShortSpan DrywallGridSystem
Flat
21
AlignmentCrimp
“A”“B”
Cut tee to within 3mmof the walls to fully engage into lock
KnurledSurface
ScrewStop
Installation Notes
1 ShortSpan tees must be cut within 3mm ofthe vertical leg of the Locking Angle Trim
2 Must screw LAT 36 and KAM 36 to wallstructure at module spacing of 450 or600mm centres
3 Insert right hand flange of tee into pocket “A”first and allow left flange to clear pocket “B”and rest on angle molding. Slide tee to theleft to engage in pocket “B” (audible click)
Locking Angle Trim – a faster, more accurate solution
✔ Pre-engineered locking tabs punched 8 oncenter:
– Locking tabs prevent lateral and upwardmovement
– Eliminate screws, pop rivets, or crimpersneeded to attach tees to molding
✔ Knurled surface on both flanges
✔ ScrewStop reverse hem prevents screwspinoff and provides safer handling
✔ Alignment crimp at locking tabs for fast, easyalignment
Lockingtab
BP LAT 12 mustbe screwed towall structure
Alignmentcrimps
150mm
Locking
150mmtabs at
centres
Maximum 1600mm
Application
ShortSpan tee engaged in Locking Angle Trim
ShortSpan DrywallGridSystem
Flat
22
ShortSpan Framing and Locking Angle Molding make drywallframing faster and easier
Corridor framing using traditional steel studs
Pan Head Screw Required When Tee Does Not Line Up with Locking Tab
Tee Locked into LAT 36
Adjust Placement of Tee to Accept Opening of
Light Fixture (Cut and Screw)
Tee Positioned to Allow Opening for Light Fixture
Fixture Supports Provided by Electrical Contractor
LAT 36
Light Fixture
1600mmHigh Hat Fixture
Fixture Installation
Span (mm) Cross Tee Spacing (mm) System Capacity (Kg/m2)
1200450 51.31600 38.47
1500450 27.78600 20.85
1600450 24.26600 18.21
1800*450 114.19*600 89.35*
2100*450 59.6*600 44.74*
Notes: * Requires StrongBack mid span vertical supportTable to be applied in conjunction with Ceiling Load Calculator on page 8
ShortSpan DrywallGridSystem
Flat
23
StrongBack
1600mm max
1600mm max
Suspension Hangers or Uptight Clip at max 1200mm o.c.
Method to Install StrongBack
1 Flattened bulb allowsStrongBack to slideover bulb
StrongBack: Easier, pre-engineered solution to support spans over 1600mm
✔ Knockouts 150mm on center eliminates measuring, screwing, and splicing
✔ Allows vertical supports at 1200mm on centre
✔ Reduces lateral movement
✔ Resists upward movement if used with vertical tee post or stud
✔ Easier to level system compared to traditional framing
2 Slide StrongBack into place – no bending of tabrequired
Printed on Zanders Mega Recycled paper©2014 Armstrong World Industries Pty Ltd.AWP0514
Armstrong, the Global Leader in Acoustic CeilingsNSWArmstrong World Industries Pty. Ltd.99 Derby Street,Silverwater NSW 2128
Telephone (02) 9748 1588Facsimile (02) 9748 8449
VIC/TASArmstrong World Industries Pty. Ltd.29-39 Mills Road,Braeside VIC 3195
Telephone (03) 9580 9633Facsimile (03) 9587 5139
QLD/NTArmstrong World Industries Pty. Ltd.6 Barrinia Street,Slacks Creek QLD 4127
Telephone (07) 3809 5565Facsimile (07) 3809 5507
Architectural Specifications
Flat Plasterboard Ceilings: Suspended Grid structure shall be Armstrong Drywall Grid System, comprising of MainRunners and Cross Tees, including Wall Moldings and Transition Trims, as per manufacturer’s instructions.
Curved Plasterboard Ceilings: Suspended Grid structure shall be Armstrong Drywall Grid System, comprising of MainRunners (facetted) and Cross Tees, including Wall Moldings and Transition Trims, as per manufacturer’s instructions.
Corridors or Plasterboard Margins: Suspended Grid structure shall be Armstrong DGS ShortSpan, comprising ofShortSpan Tees and StrongBack Support sections (where required), including Wall Moldings and Transition Trims as permanufacturer’s instructions.
Bulkhead / Soffit: Suspended Grid structure shall be Armstrong DGS QuickStix, comprising of QuickStix Tees and CrossTees, including Wall Moldings and Transition Trims, as per manufacturer’s instructions.
Contact your Armstrong Office for additional project specification details
www.armstrongceilings.com.au
B e t w e e n u s , i d e a s b e c o m e r e a l i t y ™
CEILING SYSTEMS
For SeismicDesign supportplease contact
your localArmstrong
office.